Bouncing Ball Lab: Calculate Distance & Time

Click For Summary
SUMMARY

The discussion focuses on calculating the total distance traveled by a ball dropped from a height of 6 feet, with a coefficient of restitution (CR) of 0.736. The initial drop is 72 inches, and the ball bounces back up to 53 inches. The total distance can be calculated using the formula for the sum of an infinite geometric series, specifically S = 72 + 2(53) * (1/(1 - 0.736)). Additionally, the time of motion can be derived from the total distance divided by the acceleration due to gravity, which is 32 ft/s².

PREREQUISITES
  • Understanding of geometric series and their sums
  • Knowledge of the coefficient of restitution and its application
  • Familiarity with basic physics concepts, including acceleration due to gravity
  • Ability to perform calculations involving distance, time, and speed
NEXT STEPS
  • Learn how to derive the sum of an infinite geometric series
  • Explore the concept of the coefficient of restitution in detail
  • Study the relationship between distance, time, and acceleration in physics
  • Practice calculating motion parameters for objects under gravity
USEFUL FOR

Students in physics or engineering courses, educators teaching mechanics, and anyone interested in understanding the dynamics of bouncing objects and their motion calculations.

ZincPony
Messages
21
Reaction score
0

Homework Statement



Figure out the total distance traveled by a ball bouncing vertically when its dropped from a height of 6 ft above the ground and the time the ball was in motion for.

G 32ft/s^2

ball one dropped from 72 inches bounced back up 53 inches with a Coefficient of restitution of .736

Homework Equations


the distance i figured would be the CR of each bounce up times 2, with the initial drop the ball traveled 178inches with just one bounce.

72 drop down + (2(53 bounce[up + down])) + (2(53xCR)) + ...

How do i figure out how to calculate the distance without punching in the CR and calculating each bounce up and down


The Attempt at a Solution



I got the Coefficient of restitution for each ball tested, but I am having some trouble with figuring out the time and distance problem.
 
Physics news on Phys.org
here are the equations that were presented with the lab.

http://img228.imageshack.us/img228/5433/bouncedm1.jpg
 
Last edited by a moderator:
Bouncing ball distance

edit
 
Last edited:
Ignoring deformation, the ball bounces an infinite number of times, but in a finite time. What you're looking for is this sum:

\lim_{n \rightarrow \infty} \ 72 + 2 \times \ 53 \times \ \sum_{i=0}^n \ (.736)^i

This sum can can be calculated with a somewhat clever method.
 
Last edited:
hmmm soo how would i go about figuring out the clever method to get he sum. I am just having a hard time with this, someone please help.
 
Last edited:
Jeff Reid said:
Ignoring deformation, the ball bounces an infinite number of times, but in a finite time. What you're looking for is this sum:

\lim_{n \rightarrow \infty} \ 72 + ( 2 \times \ 53 )\times \ \sum_{i=0}^n \ (.736)^i

This sum can can be calculated with a somewhat clever method.

wouldnt it be like this?? the equation
 
i looked at the wiki page but I am just having some trouble with set up of the equation. i know jeff reid set up an equation for me but i am still having trouble understanding the set up and calculating it.
 
  • #10
The sum of an infinite geometric series with 1st term 'a' and CR 'r' = a/(1-r), if mod(r)<0. That was what Jeff Reid was talking about. Now try out the formula he gave.
 
  • #11
Starting with your
S = 72 drop down + (2(53 bounce[up + down])) + (2(53xCR)) + ...
and re-writing it as
S = 72 + 2(72)x0.736 + 2(72)x0.736^2 + 2(72)x0.736^3 + 2(72)x0.736^4 ...
= -72 + 2(72) + 2(72)x0.736 + 2(72)x0.736^2 + 2(72)x0.736^3 + 2(72)x0.736^4 ...
-72 + a + ar + ar^2 + ar^3 ...
where a is 2(72) and r is 0.736

Check out the wikipedia link and you will find that the sum of
a + ar + ar^2 + ar^3 ...
is
a / (1 - r)
 
  • #12
awesome, thanks guys

would i go about the same way to figure out the total time in seconds the ball was in motion.
 
  • #13
Try it!

What is the time for the first bounce, second bounce, third bounce ... any pattern like ar^n wher n is 1,2,3, ... ?
 
Last edited:
  • #14
wouldnt i just go about finding the time by first finding hte total distance in feet, then figure out the time it was in travel by the feet per second it travels.

total distance / 32ft/s^2
sqrt of (total distance / (32ft/s^2))
 
  • #15
The ball does not have a constant speed...
 
  • #16
Shooting star said:
The ball does not have a constant speed...

if the balls speed changes thus making it not have equal speed between bounces taking different time how do i go about figuring it out with geometric progression
 
  • #17
Each time the ball bounces back with 0.736 of the speed with which it hits the ground. We know the time a ball takes to fall back to the ground if it's projected upward with velo v. Sum the times of each bounce-- that's also a GP. Remember, the very first time it only fell.
 
  • #18
Like I said, "What is the time for the first bounce, second bounce, third bounce ... any pattern like ar^n wher n is 1,2,3, ... ?"
 

Similar threads

How to Calculate the Bounces of a Bouncy Ball
  • · Replies 5 ·
Replies
5
Views
3K
Kinetic energy of a bouncing ball
  • · Replies 7 ·
Replies
7
Views
4K
Accounting for Air Resistance in Conservation of Energy Lab with Bouncing Ball
  • · Replies 13 ·
Replies
13
Views
3K
When Does a Bouncing Ball Come to Rest?
  • · Replies 5 ·
Replies
5
Views
3K
Impulse applied to a bouncing ball
  • · Replies 13 ·
Replies
13
Views
8K
Bouncing ball - How many times does it bounce
  • · Replies 3 ·
Replies
3
Views
8K
Ball dropped out a truck window, find bounce height and dist
  • · Replies 4 ·
Replies
4
Views
2K
How Does a Ping Pong Ball Behave in Zero Gravity?
  • · Replies 23 ·
Replies
23
Views
5K
Displacement-Time Graph of a bouncing ball
  • · Replies 14 ·
Replies
14
Views
6K
Ball rolling down a slope problem: Find an expression for time taken
  • · Replies 8 ·
Replies
8
Views
5K